Open and partially closed models of the solar wind interaction with outer planet magnetospheres: the case of Saturn

Abstract: Abstract. A wide variety of interactions take place between the magnetized solar wind plasma outflow from the Sun and celestial bodies within the solar system. Magnetized planets form magnetospheres in the solar wind, with the planetary field creating an obstacle in the flow. The reconnection efficiency of the solar-wind-magnetized planet interaction depends on the conditions in the magnetized plasma flow passing the planet. When the reconnection efficiency is very low, the interplanetary magnetic field (IMF) … Show more

“…This angle indicates the location of the last closed magnetic field line, that is, the last line that originates and closes at the Earth. The coefficient 0.52 accounts for a part of the open field flux that eventually closes at the night side of the magnetosphere in the equatorial region, thus reducing the open field flux, as shown in numerical integration of the flux in the PMM (Belenkaya et al., 2008, 2017). The angle θ is shown in Figure 4.…”

Evolution of the Earth's Polar Outflow From Mid‐Archean to Present

“…This angle indicates the location of the last closed magnetic field line, that is, the last line that originates and closes at the Earth. The coefficient 0.52 accounts for a part of the open field flux that eventually closes at the night side of the magnetosphere in the equatorial region, thus reducing the open field flux, as shown in numerical integration of the flux in the PMM (Belenkaya et al., 2008, 2017). The angle θ is shown in Figure 4.…”

Evolution of the Earth's Polar Outflow From Mid‐Archean to Present